Researchers provide support for growers eager to capture crop yield potential
A new resource to improve the understanding of in-season nitrogen requirements of crops, has been collated through a collaborative project led by the University of Adelaide.
With favourable seasonal conditions in the southern cropping region elevating the yield potential of this year’s winter crops, grain growers are eager to meet the nutrient demands of their crops to capture the potential on offer.
To support growers and advisers in understanding the in-season nitrogen (N) requirements of crops, the Grains Research and Development Corporation (GRDC) has published 'A Nitrogen Reference Manual For The Southern Cropping Region'.
The manual is a comprehensive guide to understanding, managing and estimating N requirements from paddock to paddock and season to season.
The manual was collated by a team from the University of Adelaide, University of New England, the University of Melbourne and advisers as part of a GRDC-invested project. It outlines key N fertiliser decision points for cereal crops, including:
- Tillering – re-assess soil moisture and yield potential, check tiller number in relation to current estimate of yield potential, and apply N to increase tiller number if required;
- Stem elongation – re-assess soil moisture, tiller number and yield potential based on seasonal rainfall and outlook, apply fertiliser N if required to match potential yield and grain protein target;
- Booting – if yield potential has increased significantly, additional N may be needed to maintain desirable protein levels.
Project leader Associate Professor Matthew Denton, from the University of Adelaide's School of Agriculture, Food and Wine, says it is important for growers to make proactive assessments in-season and add N if it is needed, especially in good seasons.
“Adjusting in-season inputs to the estimated yield potential helps minimise seasonal and economic risks,” Associate Professor Denton says.
“However, waiting for visual signs of nitrogen deficiency, such as pale leaves and low tiller numbers, will mean yield potential will have already been compromised.
“While there are some useful rules of thumb that can help growers with their nitrogen decisions, nitrogen budgeting approaches that are timely and take into account nitrogen supply from fertiliser, soil mineral nitrogen and the likely mineralisation of organic matter are needed for more accurate nitrogen management,” Assoc Prof Denton says.
“Monitoring soil moisture and nitrogen and careful management of nitrogen inputs is vital to ongoing productivity.”
The manual includes information about the various N decision support tools available to growers and advisers.
The GRDC has invested in a preliminary assessment of tools for estimating N mineralisation during crop growth in the southern cropping region.
GRDC Manager Soils and Nutrition – South, Stephen Loss, says insufficient supplies of N from the soil and fertiliser inputs are important factors in the difference between yield achieved by growers and their crop’s water-limited yield potential.
“Over recent decades, cropping rotations have intensified, pasture production has declined, and crop yield potential and nitrogen requirements have increased,” Dr Loss says.
“Data indicates soil organic matter contents are declining in most cases and the nitrogen being removed from the system is not being adequately replaced by fertiliser applications or fixed by legumes in rotation.”
Dr Loss says a separate GRDC investment had recently monitored some 200 paddocks across Australia for three seasons and while most crops did not have a major yield gap, many in high rainfall conditions were not achieving yield potential largely because N supplies were insufficient for their demands.
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